RU16306U1 - HEATING CONVECTOR - Google Patents

Description

HEATING CONVECTOR

The utility model relates to heating equipment, namely, to water heating systems of buildings and structures for various purposes.

A heating device is known, including interconnected silver heat-exchanging pipes (see, for example, utility model No. 10853, class F 24 HI / 00.1999).

The closest technical solution (prototype) is a heating convector, comprising a heat exchanger in the form of a curved tubular element having straight and curved sections, and a flow regulator with a housing having inlet and outlet openings for the coolant (see, for example, RF patent No. 2145691, class F 24 H 3/06, 1999).

In this known device used installed between the heat transfer pipes connecting them to an automatic flow rate controller, having for this an angular connecting element.

The fixed installation location of the flow controller precisely between the heat transfer pipes and the presence of an additional connecting element significantly limits the technological capabilities of the device as a whole, since it complicates its installation in buildings and structures for various purposes and increases labor costs.

The purpose of the proposed utility model is to expand the technological capabilities of the device by eliminating the noted drawbacks.

The essence of the proposed utility model lies in the fact that the heating convector, including a heat exchanger in the form of a curved tubular element having straight and curved sections, and a flow regulator with a housing having inlet and outlet openings for the coolant, the flow regulator is installed directly on one of the rectilinear or curved sections of the heat exchanger and through the inlet and outlet openings is directly connected to it, both before and after the installation site along the coolant.

The curved section can be C, L or - shaped, and the flow regulator can be installed on the section between the ends, at the ends, or on one of the straight or curved sections.

In addition, the curved section can be made detachable and connected to the straight sections detachable connection, for example, flange or thread with a nut.

It can also be connected to straight sections by one-piece connection, for example, by welding.

A regulator with manual or automatic control can be used as a heat carrier flow regulator, while the latter can have a thermostatic head. The case of the flow regulator can be equipped with an air outlet valve.

The inlet and outlet openings can be formed on the sections of the regulator body, made in the form corresponding to the shape of the sections of the tubular element of the heat exchanger connected to it.

Compared with the prototype (No. 2145691), the proposed utility model contains new features, consisting in the fact that the flow rate controller is installed directly on one of the straight or curved sections of the heat exchanger and is directly connected to it through the inlet and outlet openings, both before and after installation locations along the coolant.

2000115316

MKI: R24NZSh 1 RRIRD11 1

The curved section can be C, 1, or - shaped, and the flow regulator can be installed on the section between the ends, at the ends, or on one of the straight or curved sections.

The curved section can be made removable and connected to the straight sections detachable connection, for example, flange or thread with a nut.

It can be connected to straight sections and one-piece connection, for example, by welding.

A regulator with manual or automatic control can be used as a heat carrier flow regulator, while the latter can have a thermostatic head. The case of the flow regulator can be equipped with an air outlet valve.

The inlet and outlet openings can be formed on the sections of the regulator body, made in the form corresponding to the shape of the sections of the tubular element of the heat exchanger connected to it.

The utility model is illustrated in the drawing, which shows:

- figure 1 - heating convector, (an embodiment of the curved section of the C-shaped removable with the installation of the flow controller in the area between the ends) general view;

figure 2 is the same (option with a -shaped section, not removable and the location of the flow controller on the vertical part of the curved section);

-FIG. 3 - the same (option with an L-shaped curved section, not removable and the location of the flow regulator at the junction of straight and curved sections).

The heating convector includes a casing 1, in which the heat exchanger 2 is located, in the form of a curved tubular element having straight sections 3 and curved sections 4. The convector also has ribs 5.

The heat exchanger 2 can be made in the form of a single and continuous curved tubular element, in which there are no connections of straight 3 and curved 4 sections having an L-shape (Fig.2.3), or with removable curved sections 4 having a C-shaped form (figure 1) or another form.

The heat exchanger may have trailing sections (6) connecting the individual sections of the heat exchanger.

The connection of the curved sections 4 with the straight sections 3 can be either detachable, for example, by means of a thread with a nut 7 (Fig. 1), or one-piece, made as a whole, or, for example, by welding (Fig. 2,3).

The flow rate regulator 8 of the coolant can be either manual or automatic, made in the form of a thermostatic head 9. Moreover, an air release valve 10 can be installed in the body of the regulator 8 or outside it, and the regulator can be installed anywhere in the curved section 4, for example, in its middle part (Fig. 1) or on one of the straight sections of the heat exchanger (Fig. 2,3).

Variants of the execution of the curved section 4, as well as the placement of the flow controller 8 should be determined in each case, depending on the technological requirements for the manufacture of the convector or the features of its installation on the object.

The case of the flow regulator (8) may have curved sections with inlet and outlet openings for the passage of the coolant, while the shape of the sections should correspond to the shape of the connected sections of the tubular element of the heat exchanger 2.

The heating convector operates as follows:

When the coolant circulates through the heat exchanger 2 of the heating convector, it is heated, including and ribs 5, which, in turn, give off heat and heat the air passing between them.

If you use a manual flow controller, then when you feel discomfort, the consumer manually changes the flow rate of the coolant and thereby reaches the desired comfortable temperature in the room.

If an automatic regulator is used, then the same process, i.e. estimates of the air temperature in the room and the change in coolant flow rate is carried out automatically.

At the same time, it is precisely the possibility of installing a heat carrier flow regulator on any of the straight or curved sections of the heat exchanger and direct connection of a flow regulator with it (without an additional connecting element) that expands the technological capabilities of convector installation and reduces labor costs by about 10 - 15%.

Claims (10)

1. A heating convector comprising a heat exchanger in the form of a curved tubular element having straight and curved sections, and a flow regulator with a housing having inlet and outlet openings for the coolant, characterized in that the coolant flow regulator is installed directly on one of the straight or curved sections of the heat exchanger and through the inlet and outlet openings directly connected to it both before and after the installation site along the coolant.  2. The heating convector according to claim 1, characterized in that the curved section is C-shaped, and a flow controller is installed between its ends or at the ends. 3. The heating convector according to claim 1, characterized in that the curved section has

-shaped, and the flow regulator is installed in the place of its docking with one of the straight sections of the heat exchanger.  4. The heating convector according to claim 1, characterized in that the curved section is [-shaped, and the flow controller is installed on one of its straight sections.  5. The heating convector according to claims 1 to 3, or 4, characterized in that the curved section is removable and connected to the straight sections by a detachable connection, for example, a flange, or a thread with a nut.  6. The heating convector according to claims 1 to 4, characterized in that the curved section is connected to the straight sections by an integral connection, for example, by welding.  7. The heating convector according to claims 1 to 5 or 6, characterized in that a manually controlled controller having a device for manual regulation is used as a flow controller.  8. The heating convector according to claims 1 to 6, characterized in that an automatically controlled flow controller with a thermostatic head is used.  9. A heating convector according to claims 1 to 7 or 8, characterized in that a flow regulator having an air outlet valve is used. 10. The heating convector according to paragraphs. 1 - 8 or 9, characterized in that the inlet and outlet openings are formed on the sections of the regulator body, made in shape according to the shape of the sections of the tubular element of the heat exchanger connected to it.